Abstract

Tape expanded its reach in 2016 effectively addressing many data intensive markets including cloud, entertainment, hyperscale data centers, High Performance Computing (HPC) and the Internet along with large-scale data intensive applications such as big data, backup, recovery, long-term archive, disaster recovery, government compliance, while positioning for the unknown appetite of the IoT. The tape industry has been fueled by a decade of strong technological development and continues to play a major role for its traditional backup and disaster recovery services in addition to effectively addressing many new large-scale storage requirements. Demand for tape is being fueled by unrelenting data growth, significant technological advancements, tape’s highly favorable economics, low energy requirements, and the growing regulatory and business requirements to maintain “access to data forever.” Steady improvements have made tape technology the most reliable storage medium available, now surpassing the reliability of HDDs by three orders of magnitude. Disk technology has been advancing, but tape’s progress over the last ten years has been even greater.

Tape’s Value Proposition is Compelling

Continued development and investment in tape library, drive, media and data management software has effectively addressed the relentless demand for improved reliability, higher capacity, better power efficiency, ease of use and the lowest cost per GB and TCO of any storage solution. Below is a summary of tape’s value proposition followed by key metrics for each:

• Tape drives have a BER (Bit Error Rate) of 1x1019 bits read, the highest reliability level of any storage device surpassing HDDs at 1x1016 by three orders of magnitude.

• Tape cartridge capacity is on an unprecedented trajectory with areal density projected to grow twice as fast as HDDs for the foreseeable future.

• Tape data rates are expected to be as much as five times faster than HDDs by 2025.

• Tape has a media life exceeding 30 years, longer than any other data center digital storage solution.

• Energy consumption for tape is significantly less than HDDs with some studies showing tape energy consumption less than two percent of HDDs for the equivalent amount of storage.

• For archiving, TCO studies indicate today’s disk based storage solutions are at least six times more costly per terabyte stored than solutions based on tape libraries.

• Tape’s functionality and ease of use is enhanced with LTFS software and widespread HSM support.

Reliability. Reliability levels for tape are quickly improving as the BER (Bit Error Rate) for both enterprise and LTO-7 tape is rated at one bit in error per 1x1019 bits read. This makes the top-rated tape drives 1,000 times more reliable than the top-rated HDDs at 1x1016. The tape BER is most impressive and leads the entire storage industry; expect significantly higher levels of tape reliability going forward. See BER comparative chart below:

AFBEELDING

Capacity and Data Rate. Tape capacities and data rates are growing faster than other storage technologies. LTO-8 plans to deliver 12.8 TB native capacity and the next enterprise drives from IBM are aiming for native capacities of 15 TB and higher. Tape capacities also benefit from a 2.5x compression boost as most of the data written to tape is compressed whereas most data written to HDDs is not compressed. When comparing native data rates, LTO-7 transfers data at 300 MB/sec and the TS1150 at 360 MB/sec which is significantly faster than the typical 7,200 RPM HDD at 160 MB/sec. Tape cartridge capacities and data transfer speeds are expected to grow rapidly for the foreseeable future with no fundamental technology limitations in sight.

Media Life. Media life refers to durability and is often confused with tape reliability. Manufacturer’s specifications indicate that today’s enterprise and LTO tape media has a life span of 30 years or more while a tape drive is typically deployed 7 to 10 years before replacement. By comparison, a standard disk drive is typically operational from 3 to 5 years before replacement. In addition, LTO tape drives can typically read the current version and the two prior LTO versions to minimize the conversion effort.

Energy Consumption. The world’s data centers now consume almost as much energy as the country of Spain and consume just over 2% of the total US electrical output. Best practices for using less energy in the data center directly focus on the two highest areas of consumption – servers and disk storage. It is highly cost-effective to move lower activity data from higher energy consuming HDDs to more energy efficient tape systems. Tape cartridges spend most of their life in a library slot or on a shelf and consume no energy when not mounted in a tape drive. As capacity demands increase, tape capacity can be added without adding more drives. This not the case with HDDs where each capacity increase requires another drive. Energy costs for tape capacity are typically less than 5% of the equivalent amount of disk capacity.

Tape Roadmaps. The LTO Program Technology Provider Companies (HPE, IBM and Quantum) have identified LTO generation 10 with a compressed capacity of 120 TB. See LTO Ultrium roadmap. The INSIC 2015-2025 International Magnetic Tape Storage Roadmap indicates the current areal density scaling rate of HDD of about 16% CAGR and tape at 33% CAGR indicating the current cost advantage of tape systems over HDDs will grow even wider in the future.

Patent Activity Remains High for Future Tape Developments

Several tape providers were assigned patents in 2016. These patents are not announcements, but represent potentially significant innovations for higher performance, reduced times to first byte of data, and increased reliability and availability advancements. As tape capacity increases, tape performance needs to increase. Thus, several patents directly focus on improved tape performance and are in bold in the patent activity summary chart below:

TABEL

Cost and TCO Studies. Tape’s wide and sustainable cost per gigabyte and Total Cost of Ownership (TCO) advantage compared with other storage mediums makes it the most cost-effective technology for long-term data retention. Keep in mind that tape capacity can scale without adding more drives – this not the case with HDDs where each capacity increase requires another drive and quickly becomes costlier than tape as capacity demand increases. Some excellent TCO studies are publicly available and show the TCO for HDDs is approximately six times higher than the equivalent capacity tape systems. See The Clipper Group TCO Analysis.

LTFS Software. LTFS (Linear Tape File System) enables direct, intuitive and graphical access to data stored in LTO tape drives and libraries. As a testimony to the growing use of LTFS, a total of 35 companies are now LTFS implementers. In addition, SNIA's Linear Tape File System (LTFS) Technical Work Group is focusing technical efforts on the development of an architecture that is related to the “on-tape” format for LTFS. See SNIA Linear Tape File System (LTFS) Format is Now an ISO/IEC Standard.

New Use Cases and Innovative Solutions Bring Tape into the Game

Active Archives. Tape’s favorable economics are fueling increased interest in Active Archive solutions. An active archive is a combined solution of open systems software, disk, and tape hardware that gives users an automated means to store and manage all their data using one or more archive technologies (HDDs, tape, and cloud storage). The active archive greatly improves tape access time by serving as a cache buffer for a tape library. The active archive enables a high percentage of accesses to the tape subsystem to be satisfied from HDDs (cache hit ratio) avoiding physical tape access and making it well suited for higher performance applications in addition to large capacity and archive applications.

RAIT is Arriving. RAIT (Redundant Arrays of Inexpensive Tape) aggregates bandwidth across multiple tape drives significantly increasing throughput. RAIT requires multiple tapes to be loaded in parallel for writing and reading data and is like RAID for HDDs. Interest in RAIT is expected to increase taking advantage of significant future tape transfer rate increases which are projected to yield tape data rates 5x faster than HDDs by 2025. Thus, the dramatic transfer rate potential of HPSS based RAIT will position RAIT for the HPC, hyperscale, cloud and enterprise markets. Public RAIT examples include Oak Ridge National Lab (ORNL) and the Blue Waters project at the National Center for Supercomputing Applications at the University of Illinois. See INSIC data rate projection chart for tape and HDDs (right). AFBEELDING

Tape as NAS Emerges. The innovative Tape as NAS solution has gained traction and integrates an LTO tape library with a front-end NAS and LTFS to deliver a higher performance, scalable archive solution. A tape library as NAS enables users to leverage familiar file system tools, and even drag and drop files directly to and from a tape cartridge, just like a disk-based NAS. Examples include:

• StrongBox Data Solutions

• Fujifilm Dternity

• HPE StoreEver Archive Manager Solutions

• IBM Spectrum Archive

• Oracle HSM

• Overland NEO Agility LTFS Archive Appliance

• Qstar Archive Manager

• Quantum Scalar LTFS and Artico

• Spectra Logic BlackPearl

Storage Tiering and HSM Fully Embraces Tape. The increasingly popular tiered storage cost-reduction concept now fully embraces the tape storage tier (Tier 3). Storage tiering uses standard HSM software functionality enabling the storage administrator to define policies for data migration and retention to control the movement of petabytes of data and potentially billions of files from more expensive HDD storage devices to less-expensive tape storage. The greatest cost benefit reductions from tiered storage are achieved when tape is used in conjunction with HDDs.

Tape for Cloud and Internet Providers Arrives. Tape is playing multiple roles for the enormous hyperscale, internet and cloud data centers. Using tape for cloud archives, rather than HDDs, greatly reduces cloud TCO and creates a “green cloud”. The role of tape in the cloud will continue to grow as cloud providers seek to lower their storage costs and relieve pressure from exclusively using more costly HDDs for lower activity and archival data. (See Google Gmail Outage ).

Tape Ideal for Video Surveillance and Cybersecurity (see sourcesecurity.com report). Future estimates suggest that by 2019 surveillance data will generate over 2,500 petabytes (2.5 exabytes) daily. Cyberattacks occur when the attacker breaks into the computer infrastructure to obtain data via electronic means, including hacking, viruses and malware. Tape technology prevents electronic cyberattack access to the data because a tape cartridge removed from the system is no longer accessible electronically. With tape, there is an “air-gap” between the cartridge and the computer systems. Disk drives remain on-line and are particularly vulnerable to an attack. See Tape Provides Added Security Against Cyber Attacks.

Select Case Studies Highlight the Value of Tape Solutions. Several case studies listed below demonstrate the many new and innovative use cases for tape technology:

• Spectra Logic Provides Videohouse With an Affordable Content Storage Solution for Sports Production and Television Broadcast Archive.

Looking Ahead to 2017 and Beyond

The role tape serves in today’s modern data centers is steadily expanding. IT executives and cloud service providers are addressing new applications that leverage tape for its significant reliability, security, operational and economic advantages. This recognition is driving continued investment in new tape technologies with robust roadmaps delivering innovations extending well into the future and addressing many exciting new use cases. The innovation, compelling value proposition and new development activities demonstrate tape technology is not sitting still; expect this promising trend to continue throughout 2017 and beyond as the march to exascale storage solutions draws near. Clearly tape technology brings companies the most reliable, safe and efficient data storage solution available to the storage industry.

April 18, 2017. The Tape Storage Council, which includes representatives of BDT, Frontier BV, FUJIFILM, GazillaByte, Hewlett Packard Enterprise, IBM, Imagine Products, Integra, Iron Mountain, NCE Computer Group, Oracle, Overland Storage, Qualstar, Quantum, REB Storage Systems, Spectra Logic, StrongBox Data Solutions, Tandberg Data, Turtle and XpresspaX has issued the following memo to highlight the current trends, usages and technology innovations occurring within the tape storage industry.Technology Advances Propel Tape to New MarketsIndustry Leading Capacity, Reliability, and Lowest Costs Are Changing the GameAbstractTape expanded its reach in 2016 effectively addressing many data intensive markets including cloud, entertainment, hyperscale data centers, High Performance Computing (HPC) and the Internet along with large-scale data intensive applications such as big data, backup, recovery, long-term archive, disaster recovery, government compliance, while positioning for the unknown appetite of the IoT. The tape industry has been fueled by a decade of strong technological development and continues to play a major role for its traditional backup and disaster recovery services in addition to effectively addressing many new large-scale storage requirements. Demand for tape is being fueled by unrelenting data growth, significant technological advancements, tape’s highly favorable economics, low energy requirements, and the growing regulatory and business requirements to maintain “access to data forever.” Steady improvements have made tape technology the most reliable storage medium available, now surpassing the reliability of HDDs by three orders of magnitude. Disk technology has been advancing, but tape’s progress over the last ten years has been even greater.Tape’s Value Proposition is CompellingContinued development and investment in tape library, drive, media and data management software has effectively addressed the relentless demand for improved reliability, higher capacity, better power efficiency, ease of use and the lowest cost per GB and TCO of any storage solution. Below is a summary of tape’s value proposition followed by key metrics for each:• Tape drives have a BER (Bit Error Rate) of 1x1019 bits read, the highest reliability level of any storage device surpassing HDDs at 1x1016 by three orders of magnitude.• Tape cartridge capacity is on an unprecedented trajectory with areal density projected to grow twice as fast as HDDs for the foreseeable future.• Tape data rates are expected to be as much as five times faster than HDDs by 2025.• Tape has a media life exceeding 30 years, longer than any other data center digital storage solution.• Energy consumption for tape is significantly less than HDDs with some studies showing tape energy consumption less than two percent of HDDs for the equivalent amount of storage.• For archiving, TCO studies indicate today’s disk based storage solutions are at least six times more costly per terabyte stored than solutions based on tape libraries.• Tape’s functionality and ease of use is enhanced with LTFS software and widespread HSM support.2Source: LTO Program Technology Provider Companies (TPCs)In 4Q 2016 LTO capacity shipments totaled nearly 27 exabytes (compressed), making it the highest capacity shipped quarter in LTO history. Enterprise tape libraries now scale beyond one exabyte making tape the first exascale storage solution. HPC and Hyperscale data centers are racing towards exascale storage requirements.Reliability. Reliability levels for tape are quickly improving as the BER (Bit Error Rate) for both enterprise and LTO-7 tape is rated at one bit in error per 1x1019 bits read. This makes the top-rated tape drives 1,000 times more reliable than the top-rated HDDs at 1x1016. The tape BER is most impressive and leads the entire storage industry; expect significantly higher levels of tape reliability going forward. See BER comparative chart below:Source: Storage Vendor’s Published Specifications1x10191x10 1x10 121x10 1x10 141x10 1x10 151x10 1x10 161x10 1x10 171x10 1x10 19Blu-ray OpticalBlu-ray OpticalBlu-ray OpticalBlu-ray OpticalBlu-ray OpticalBlu-ray Optical Blu-ray Optical Blu-ray Optical Blu-ray OpticalDesktop SATADesktop SATADesktop SATADesktop SATA Desktop SATADesktop SATADesktop SATA Desktop SATAEnterprise SATAEnterprise SATAEnterprise SATAEnterprise SATAEnterprise SATAEnterprise SATAEnterprise SATAEnterprise SATAEnterprise SATA Enterprise SATA Enterprise SATAFibre Channel - Fibre Channel -Fibre Channel -Fibre Channel -Fibre Channel - Fibre Channel -Fibre Channel - Fibre Channel -Fibre Channel -Fibre Channel -Fibre Channel - SAS HDDSAS HDDSAS HDDSAS HDD SAS HDDLTO tape - 5,6 LTO tape - 5,6LTO tape - LTO 5,6 LTO tape - 5,6LTO tape - LTO 5,6LTO tape - LTO 5,6 LTO tape - 5,6 LTO tape - 5,6Flash SSD Flash SSD Flash SSD Flash SSDEnterprise Tape -Enterprise Tape -Enterprise Tape -Enterprise Tape -Enterprise Tape -Enterprise Tape -Enterprise Tape -Enterprise Tape -Enterprise Tape - Enterprise Tape - Enterprise Tape -Enterprise Tape - T10K, TS11xx, T10K, TS11xx,T10K, TS11xx, T10K, TS11xx, T10K, TS11xx, T10K, TS11xx, LTO-7 LTO-7LTO-7Bit Error Rate by TechnologyBit Error Rate by TechnologyBit Error Rate by Technology Bit Error Rate by TechnologyBit Error Rate by TechnologyBit Error Rate by TechnologyBit Error Rate by TechnologyBit Error Rate by TechnologyBit Error Rate by TechnologyBit Error Rate by TechnologyBit Error Rate by Technology Bit Error Rate by Technology Bit Error Rate by TechnologyBit Error Rate by Technology Bit Error Rate by TechnologyBit Error Rate by TechnologyBit Error Rate by TechnologyBit Error Rate by TechnologyBit Error Rate by TechnologyBit Error Rate by TechnologyBit Error Rate by TechnologyBit Error Rate by TechnologyReliability Comparison All Storage DevicesReliability Comparison All Storage Devices Reliability Comparison All Storage Devices Reliability Comparison All Storage Devices Reliability Comparison All Storage Devices Reliability Comparison All Storage DevicesReliability Comparison All Storage DevicesReliability Comparison All Storage DevicesReliability Comparison All Storage Devices Reliability Comparison All Storage DevicesReliability Comparison All Storage Devices Reliability Comparison All Storage Devices Reliability Comparison All Storage Devices Reliability Comparison All Storage DevicesReliability Comparison All Storage Devices Reliability Comparison All Storage Devices Reliability Comparison All Storage Devices Reliability Comparison All Storage Devices Reliability Comparison All Storage Devices Reliability Comparison All Storage Devices3Capacity and Data Rate. Tape capacities and data rates are growing faster than other storage technologies. LTO-8 plans to deliver 12.8 TB native capacity and the next enterprise drives from IBM are aiming for native capacities of 15 TB and higher. Tape capacities also benefit from a 2.5x compression boost as most of the data written to tape is compressed whereas most data written to HDDs is not compressed. When comparing native data rates, LTO-7 transfers data at 300 MB/sec and the TS1150 at 360 MB/sec which is significantly faster than the typical 7,200 RPM HDD at 160 MB/sec. Tape cartridge capacities and data transfer speeds are expected to grow rapidly for the foreseeable future with no fundamental technology limitations in sight.Media Life. Media life refers to durability and is often confused with tape reliability. Manufacturer’s specifications indicate that today’s enterprise and LTO tape media has a life span of 30 years or more while a tape drive is typically deployed 7 to 10 years before replacement. By comparison, a standard disk drive is typically operational from 3 to 5 years before replacement. In addition, LTO tape drives can typically read the current version and the two prior LTO versions to minimize the conversion effort.Energy Consumption. The world’s data centers now consume almost as much energy as the country of Spain and consume just over 2% of the total US electrical output. Best practices for using less energy in the data center directly focus on the two highest areas of consumption – servers and disk storage. It is highly cost-effective to move lower activity data from higher energy consuming HDDs to more energy efficient tape systems. Tape cartridges spend most of their life in a library slot or on a shelf and consume no energy when not mounted in a tape drive. As capacity demands increase, tape capacity can be added without adding more drives. This not the case with HDDs where each capacity increase requires another drive. Energy costs for tape capacity are typically less than 5% of the equivalent amount of disk capacity.Tape Roadmaps. The LTO Program Technology Provider Companies (HPE, IBM and Quantum) have identified LTO generation 10 with a compressed capacity of 120 TB. See LTO Ultrium roadmap. The INSIC 2015-2025 International Magnetic Tape Storage Roadmap indicates the current areal density scaling rate of HDD of about 16% CAGR and tape at 33% CAGR indicating the current cost advantage of tape systems over HDDs will grow even wider in the future.Patent Activity Remains High for Future Tape DevelopmentsSeveral tape providers were assigned patents in 2016. These patents are not announcements, but represent potentially significant innovations for higher performance, reduced times to first byte of data, and increased reliability and availability advancements. As tape capacity increases, tape performance needs to increase.Thus, several patents directly focus on improved tape performance and are in bold in the patent activity summary chart below:4Fujifilm (9,401,171)• Granted a total of 10 patents related to magnetic particles and method ofmanufacturing for Fujifilm recording media.IBM (9,021,196)(9,060,414)(9,285,996)(9,047,879)(9,019,654)(9,021,175)• Writing Multiple Files Simultaneously to Tape Media.• Solid State (Tape) Storage Media.• Tape Drive Buffer Utilization for Improving Tape Drive Efficiency Using a Processor.• High Performance Cartridge Format.• Data Storage Tape with Random Access Data.• Re-ordering Access to Reduce Total Seek Time on Tape Media.Oracle (9,311,044)(9,275,666)(9,244,961)(9,195,402)• Supporting Efficient Buffer Usage with Single External Memory Interface.• Rotatable Recording Head Actuator for Correct Tape Drive Angular Error in Tape Drives.• Concurrent Access for Hierarchical Data Storage.• Target and Initiator Mode Configuration of Tape Drives for Data Transfer.Quantum (9,503,127)(9,431,054)(9,501,353)• Data Deduplication with Adaptive Erasure Code Redundancy.• Doubly Distributed Erasure Codes.• Erasure Code Prioritization.Spectra (9,336,815)• Dynamic Write Once Read Many (WORM) Tape Cartridge Designation.Cost and TCO Studies. Tape’s wide and sustainable cost per gigabyte and Total Cost of Ownership (TCO) advantage compared with other storage mediums makes it the most cost-effective technology for long-term data retention. Keep in mind that tape capacity can scale without adding more drives – this not the case with HDDs where each capacity increase requires another drive and quickly becomes costlier than tape as capacity demand increases. Some excellent TCO studies are publicly available and show the TCO for HDDs is approximately six times higher than the equivalent capacity tape systems. See The Clipper Group TCO Analysis.LTFS Software. LTFS (Linear Tape File System) enables direct, intuitive and graphical access to data stored in LTO tape drives and libraries. As a testimony to the growing use of LTFS, a total of 35 companies are now LTFS implementers. In addition, SNIA's Linear Tape File System (LTFS) Technical Work Group is focusing technical efforts on the development of an architecture that is related to the “on-tape” format for LTFS. See SNIA Linear Tape File System (LTFS) Format is Now an ISO/IEC Standard.New Use Cases and Innovative Solutions Bring Tape into the GameActive Archives. Tape’s favorable economics are fueling increased interest in Active Archive solutions. An active archive is a combined solution of open systems software, disk, and tape hardware that gives users an automated means to store and manage all their data using one or more archive technologies (HDDs, tape, and cloud storage). The active archive greatly improves tape access time by serving as a cache buffer for a tape library. The active archive enables a high percentage of accesses to the tape subsystem to be satisfied from HDDs (cache hit ratio) avoiding physical tape access and making it well suited for higher performance applications in addition to large capacity and archive applications.5RAIT is Arriving. RAIT (Redundant Arrays of Inexpensive Tape) aggregates bandwidth across multiple tape drives significantly increasing throughput. RAIT requires multiple tapes to be loaded in parallel for writing and reading data and is like RAID for HDDs. Interest in RAIT is expected to increase taking advantage of significant future tape transfer rate increases which are projected to yield tape data rates 5x faster than HDDs by 2025. Thus, the dramatic transfer rate potential of HPSS based RAIT will position RAIT for the HPC, hyperscale, cloud and enterprise markets. Public RAIT examples include Oak Ridge National Lab (ORNL) and the Blue Waters project at the National Center for Supercomputing Applications at the University of Illinois. See INSIC data rate projection chart for tape and HDDs (right).Tape as NAS Emerges. The innovative Tape as NAS solution has gained traction and integrates an LTO tape library with a front-end NAS and LTFS to deliver a higher performance, scalable archive solution. A tape library as NAS enables users to leverage familiar file system tools, and even drag and drop files directly to and from a tape cartridge, just like a disk-based NAS. Examples include:• StrongBox Data Solutions• Fujifilm Dternity• HPE StoreEver Archive Manager Solutions• IBM Spectrum Archive• Oracle HSM• Overland NEO Agility LTFS Archive Appliance• Qstar Archive Manager• Quantum Scalar LTFS and Artico• Spectra Logic BlackPearlStorage Tiering and HSM Fully Embraces Tape. The increasingly popular tiered storage cost-reduction concept now fully embraces the tape storage tier (Tier 3). Storage tiering uses standard HSM software functionality enabling the storage administrator to define policies for data migration and retention to control the movement of petabytes of data and potentially billions of files from more expensive HDD storage devices to less-expensive tape storage. The greatest cost benefit reductions from tiered storage are achieved when tape is used in conjunction with HDDs.HPC Embracing HPSS and Tape. HPSS (High Performance Storage System) software is widely used in the HPC market providing highly flexible and scalable hierarchical storage management functionality that optimizes large-scale storage resources by keeping recently used data on disk and less recently used data on cost-effective tape. In addition, HPSS enables RAIT effectively multiplying the data rate and improving the availability of tape subsystems.050010001500200025003000201520172019202120232025Transfer rate MB/secTransfer rate MB/secTransfer rate MB/secTransfer rate MB/secTransfer rate MB/secTransfer rate MB/secTransfer rate MB/secTransfer rate MB/secTransfer rate MB/secTransfer rate MB/secTransfer rate MB/secTransfer rate MB/sec.Year YearTape Versus HDD Transfer RateTape Versus HDD Transfer Rate Tape Versus HDD Transfer Rate Tape Versus HDD Transfer Rate Tape Versus HDD Transfer Rate Tape Versus HDD Transfer Rate Tape Versus HDD Transfer Rate Tape Versus HDD Transfer Rate Tape Versus HDD Transfer RateTape Versus HDD Transfer Rate Tape Versus HDD Transfer RateTape Versus HDD Transfer RateTape Versus HDD Transfer Rate Tape Versus HDD Transfer RateTape Versus HDD Transfer Rate Tape Versus HDD Transfer RateTape Versus HDD Transfer RateTapeTapeTapeTapeHDD Write OnlyHDD Write Only HDD Write Only HDD Write Only HDD Write Only HDD Write Only HDD Write OnlyHDD Write OnlyHDD Write OnlyHDD write w/Read VerifyHDD write w/Read Verify HDD write w/Read Verify HDD write w/Read Verify HDD write w/Read Verify HDD write w/Read Verify HDD write w/Read Verify HDD write w/Read VerifyHDD write w/Read Verify HDD write w/Read Verify HDD write w/Read VerifyHDD write w/Read Verify HDD write w/Read VerifyHDD write w/Read Verify5XTape is 5X faster Than HDD in 2025 - Assuming Full Verify6Tape for Cloud and Internet Providers Arrives. Tape is playing multiple roles for the enormous hyperscale, internet and cloud data centers. Using tape for cloud archives, rather than HDDs, greatly reduces cloud TCO and creates a “green cloud”. The role of tape in the cloud will continue to grow as cloud providers seek to lower their storage costs and relieve pressure from exclusively using more costly HDDs for lower activity and archival data. (See Google Gmail Outage ).Tape Ideal for Video Surveillance and Cybersecurity (see sourcesecurity.com report). Future estimates suggest that by 2019 surveillance data will generate over 2,500 petabytes (2.5 exabytes) daily. Cyberattacks occur when the attacker breaks into the computer infrastructure to obtain data via electronic means, including hacking, viruses and malware. Tape technology prevents electronic cyberattack access to the data because a tape cartridge removed from the system is no longer accessible electronically. With tape, there is an “air-gap” between the cartridge and the computer systems. Disk drives remain on-line and are particularly vulnerable to an attack. See Tape Provides Added Security Against Cyber Attacks.Select Case Studies Highlight the Value of Tape Solutions. Several case studies listed below demonstrate the many new and innovative use cases for tape technology:• Dternity NAS Helps the Fighting Irish Build a Better Archive.• ORNL Enhances Data Integrity and Accessibility with Active Archive Solutions.• Quantum 7PB Multi-tier Storage Solution Enables Breakthrough Research at University of Gottingen And The Max Planck Society.• Spectra Logic Provides Slovnaft With a Reliable, High-performance, Consolidated Scalable Storage Solution, Capable of Scaling for Future Business Needs.• Spectra Logic Provides Videohouse With an Affordable Content Storage Solution for Sports Production and Television Broadcast Archive.Looking Ahead to 2017 and BeyondThe role tape serves in today’s modern data centers is steadily expanding. IT executives and cloud service providers are addressing new applications that leverage tape for its significant reliability, security, operational and economic advantages. This recognition is driving continued investment in new tape technologies with robust roadmaps delivering innovations extending well into the future and addressing many exciting new use cases. The innovation, compelling value proposition and new development activities demonstrate

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